WO2004111963A1 - Interface utilisateur de systemes combines pour une surveillance centralise d'un point de controle des passagers et des bagages - Google Patents

Interface utilisateur de systemes combines pour une surveillance centralise d'un point de controle des passagers et des bagages Download PDF

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Publication number
WO2004111963A1
WO2004111963A1 PCT/US2004/017830 US2004017830W WO2004111963A1 WO 2004111963 A1 WO2004111963 A1 WO 2004111963A1 US 2004017830 W US2004017830 W US 2004017830W WO 2004111963 A1 WO2004111963 A1 WO 2004111963A1
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WO
WIPO (PCT)
Prior art keywords
screening
passenger
baggage
explosives
checkpoint
Prior art date
Application number
PCT/US2004/017830
Other languages
English (en)
Inventor
John H. Huey
Stephen Wolff
Original Assignee
Quantum Magnetics, Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Quantum Magnetics, Inc. filed Critical Quantum Magnetics, Inc.
Priority to CA002527876A priority Critical patent/CA2527876A1/fr
Priority to EP04754441A priority patent/EP1636773A1/fr
Publication of WO2004111963A1 publication Critical patent/WO2004111963A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64FGROUND OR AIRCRAFT-CARRIER-DECK INSTALLATIONS SPECIALLY ADAPTED FOR USE IN CONNECTION WITH AIRCRAFT; DESIGNING, MANUFACTURING, ASSEMBLING, CLEANING, MAINTAINING OR REPAIRING AIRCRAFT, NOT OTHERWISE PROVIDED FOR; HANDLING, TRANSPORTING, TESTING OR INSPECTING AIRCRAFT COMPONENTS, NOT OTHERWISE PROVIDED FOR
    • B64F1/00Ground or aircraft-carrier-deck installations
    • B64F1/36Other airport installations
    • B64F1/368Arrangements or installations for routing, distributing or loading baggage
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64FGROUND OR AIRCRAFT-CARRIER-DECK INSTALLATIONS SPECIALLY ADAPTED FOR USE IN CONNECTION WITH AIRCRAFT; DESIGNING, MANUFACTURING, ASSEMBLING, CLEANING, MAINTAINING OR REPAIRING AIRCRAFT, NOT OTHERWISE PROVIDED FOR; HANDLING, TRANSPORTING, TESTING OR INSPECTING AIRCRAFT COMPONENTS, NOT OTHERWISE PROVIDED FOR
    • B64F1/00Ground or aircraft-carrier-deck installations
    • B64F1/36Other airport installations
    • B64F1/366Check-in counters
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07BTICKET-ISSUING APPARATUS; FARE-REGISTERING APPARATUS; FRANKING APPARATUS
    • G07B15/00Arrangements or apparatus for collecting fares, tolls or entrance fees at one or more control points

Definitions

  • the present invention relates generally to a combined systems user interface, and
  • explosives detection systems include those that are intended to screen individuals, while
  • IEDs improvised explosives devices
  • airport screening checkpoints often include weapons and metal
  • a combined systems user interface may be configured with an advanced
  • ATSC technology screening checkpoint
  • the CUI may include a baggage, passenger, and secondary screening status regions.
  • the baggage screening status region displays
  • a secondary screening status region displays screening
  • the status region may display screening information generated by a nuclear detection system
  • the passenger screening status region is arranged in another aspect of the present invention.
  • the passenger screening status region may
  • images of an individual passenger and a location of metallic items detected on the individual passenger may be generated using a camera
  • the CUI may also be accessed.
  • screening system control capabilities so that screening sensitivity levels of at least
  • one screening system of the baggage, passenger, and secondary screening zones can be any screening system of the baggage, passenger, and secondary screening zones.
  • the sensitivity level modifications may be performed manually by a human
  • the CUI may also be used to control an entry or
  • the CUI may be proximately, or remotely, located to the various screening systems of the ATSC.
  • FIG. 1 is a block diagram of one embodiment of an advanced technology
  • FIG. 2 is a block diagram showing a more detailed view of an example of the
  • FIG. 3 is a block diagram of a more detailed view of an example of the imaging
  • FIG. 4 is a block diagram showing a more detailed view of an example of the explosives detection portal in accordance with the invention.
  • FIG. 5 is a block diagram showing a more detailed view of a self-divestment
  • FIG. 6 is a block diagram showing a more detailed view of an example of the
  • FIG. 7 is a block diagram showing a more detailed view of an example of the body scanning system in accordance with the invention.
  • FIG. 8 is a block diagram showing a more detailed view of an explosives detection
  • FIG. 9 is a block diagram showing a more detailed view of a sealed-bottle
  • FIG. 10 is a block diagram in accordance with the invention, showing a control
  • FIG. 11 is a diagram showing one implementation of a combined user interface
  • FIG. 12 is a block diagram showing an alternative embodiment of an advanced
  • FIG. 13 is a block diagram showing another alternative embodiment of an
  • FIG. 14 is a block diagram showing an integrated screening checkpoint in
  • FIG. 15 is a block diagram showing an alternative embodiment of an advanced
  • FIG. 16 is a block diagram showing an yet another alternative embodiment of an advanced technology screening checkpoint of the present invention.
  • FIG. 17 is a block diagram showing still another alternative embodiment of an
  • baggage which is screened for explosives, weapons, and other threat objects.
  • FIG. 1 a block diagram of one embodiment of an advanced advanced
  • checkpoint 10 of the present invention is shown.
  • primary baggage screening zone generally includes primary baggage screening zone 15, primary passenger screening zone 20, and optional secondary screening zone 25.
  • primary baggage and passenger screening zones may be configured
  • the baggage screening zone may be configured with explosives screening system
  • the passenger screening zone may include explosives
  • detection portal 40 self-divestment portal 45, and metal detection portal 50.
  • a layered approach to checkpoint security may be augmented by implementing
  • the secondary screening zone may be outfitted with
  • body scanning system 55 providing enhanced detection of concealed contraband in a
  • routine 57 enhanced explosives detection system 60 and sealed-bottle scanning system
  • the weapons search routine may include a manual hand search of suspicious
  • baggage screening systems may also be used to facilitate this search routine. If desired,
  • some or all of the weapons search routine may be performed with a suitable system, such
  • Explosives detection system 60 is useful in the detection of trace amounts of
  • the sealed-bottle scanning system may be implemented to detect the
  • the screening checkpoint is shown optionally configured with passenger ID station 27.
  • the passenger ID station may be implemented using known passenger ID systems.
  • a suitable ID station may be configured to identify passengers by scanning, for example, a passenger's driver license, a state-issued identification card, an RF LD tag, or a
  • the passenger ID system may
  • acquired by the passenger ID station may be communicated to a control computer.
  • the passenger ID station may operate in conjunction with an
  • the entry gate may operate under the control of a control computer or a
  • checkpoint operator and can be implemented using any of a variety of controllable barrier
  • the passenger may present the appropriate
  • the passenger information may be stored documentation to passenger ID station 27. After scanning, the passenger information may be
  • the divestment station may be implemented at or near the
  • Passengers may be required to divest items such as carry-on luggage, laptop
  • stations include keys, loose coins, wallets, pocket contents, back packs, sport bags, purses,
  • passengers are provided with one or more bins or trays so
  • baggage maybe passed through explosives screening
  • An alert or pass indication may be generated based on
  • passenger baggage is first screened by the explosives detection system, prior to screening
  • Explosives screening system 30 may also be configured to
  • imaging screening operator may screen the baggage item with more scrutiny.
  • explosives screening system 30 communicates an alert (indicating
  • the imaging system operator may examine the
  • a particular example may be where an alerted imaging system operator may be
  • system operator may examine the identified baggage with a particular or enhanced focus
  • passengers may be directed through one or more
  • some or all of the portals of the passenger screening zone maybe configured to provide an alert or pass indication based upon the existence or absence of
  • zones may be generated automatically, via human operator, or both.
  • placement of the screening portals of passenger screening zone 20 is not critical to many
  • metal detection portal 50 the passenger may be any type of the passenger.
  • portal 50 triggered by portal 50, consequently reducing the number of passengers who require
  • 55 may be configured to scan passengers after they have passed through the primary
  • screening portals of the passenger screening zone may be communicated to a body
  • data may include,
  • the body scanning system operator may perform more focused and efficient screening of
  • a body search performed by checkpoint operators may be utilized as an alternative to the body scanning system.
  • screening zone 20 contemporaneously with the screening of their baggage.
  • baggage screening may be conducted prior to or after passenger screening, if so desired.
  • the screened passenger and baggage may have successfully passed all
  • a second generalized scenario may be where either the
  • scenario may be where both the passenger and baggage have failed some portion of their
  • screening systems is indicative of a passenger that does not posses any detected weapons
  • contraband items may be permitted access to a secured area protected by the
  • the suspicious baggage may undergo further
  • the suspicious baggage may be subjected to
  • the passenger and associated baggage may not be permitted to exit
  • the suspicious passenger may be
  • the passenger may be permitted to retrieve any baggage and allowed to, exit the screening
  • checkpoint (block 90).
  • enforcement may be accomplished with the aid of a control computer and a combined
  • FIG. 2 is a block diagram showing a more detailed view of baggage explosives
  • ESS screening system
  • configured ESS can detect explosives such as Semtex, C-4, nitroglycerin, PETN, RDX,
  • the ESS maybe easily configured with additional screening capabilities for detecting illegal drugs such as
  • the ESS may be configured with a nuclear quadrupole
  • NQR nuclear magnetic resonance
  • nuclei are present but also their chemical environment.
  • nuclei within the item scanned As the nuclei realign themselves, they emit a
  • the baggage divestment area.
  • the baggage may then undergo a scanning process to
  • a pass condition indicates that no explosives have been detected on or
  • an alert condition indicates explosives have been detected
  • the scanned baggage contains material that prevents the
  • the baggage is given a pass indication, it is typically directed to imaging system
  • an alert may be triggered and the baggage is passed on to the
  • ESS 30 does not require human interpretation or analysis
  • the ESS may be equipped with
  • FIG. 3 a block diagram of a more detailed view of baggage
  • imaging system 35 in accordance with some embodiments of the invention is shown.
  • baggage imaging system may be constructed using known imaging technologies. Suitable imaging technologies include, for example, X-ray, computed tomography (CT), magnetic resonance imaging (MRI), smart X-ray, multi-view X-ray, laminography, and the like.
  • CT computed tomography
  • MRI magnetic resonance imaging
  • smart X-ray multi-view X-ray
  • laminography laminography
  • imaging system 35 may be implemented using almost any technology that
  • suitable imaging system would be of sufficient size and speed to meet the screening
  • the imaging system should also have a
  • typical imaging system include: a scanning tunnel; a conveyor or other means for passing
  • color video inverse video
  • variable density zoom variable color
  • system 35 includes the Rapiscan 520 X-ray screening system marketed by OSI/Rapiscan
  • the baggage Upon entering the imaging system, the baggage is scanned for weapons, improvised explosive devices (LEDs), or other contraband (block 118). This is typically
  • Items of interest include, for
  • baggage may be made available for retrieval by the passenger at the checkpoint exit gate
  • an alert will be triggered and the baggage will undergo additional screening in secondary screening zone 25.
  • FIG. 4 is a block diagram showing a more detailed view of passenger explosives
  • explosives detection portal may be implemented using conventional technologies that can
  • QR quadruple resonance
  • portal 40 will be described with respect to various types of explosives trace
  • passenger portal 40 may be configured to detect an assortment of explosives such as Semtex, C-4, nitroglycerin,
  • PETN PETN
  • RDX Detasheet
  • TNT TNT
  • tetryl ANFO
  • black powder black powder
  • portal 40 may also be configured with detection capabilities for detecting illegal drugs
  • explosives may be accomplished in the manner set forth in FIG. 4. As depicted in block
  • a passenger first approaches explosives detection portal 40 and waits for an entry
  • An entry signal is often used as a mechanism to control passenger flow through
  • FIG. 1 For example, after a passenger has scanned the appropriate ID card at the
  • the passenger may be given an
  • passenger ID station may generate a "busy" notice to waiting passengers. Once the initial passenger has passed through portal 40, for example, the passenger LD station may
  • An entrance gate may be used to
  • the entry signal may be implemented using visual displays, light indicators, or
  • the portal may be configured with a visual display that
  • the portal may generate audio messages that signal passengers when entry
  • the portal maybe configured with an array of air jets to dislodge particles of interest from
  • Typical scanning time per passenger ranges from about 5 to 20 seconds. If the
  • the passenger exits the portal before the scanning process has been completed, the passenger may be directed to reenter the portal so that the scanning process can be repeated (block
  • FIG. 5 a more detailed view of self-divestment portal 45 is depicted in FIG. 5.
  • Portal 45 may be
  • the self-divestment portal is often implemented as a tool for concealed metal.
  • detector detection portal 50 This aspect provides the passenger a final opportunity to give up alarm triggering items prior to screening by portal 50.
  • components of a typical self-divestment portal include: a portal
  • a camera captures
  • the image may be a
  • the i-Portal 100 developed by
  • Quantum Magnetics h e, of San Diego, California, is one example of a self-divestment system that may be used for implementing portal 45.
  • FIG. 5 depicts one example of how passengers may be shown what objects need to
  • portal 45 First, the passenger enters the self-divestment portal and
  • the passenger is given a pass indication and allowed to proceed to the metal
  • the system indicates an alert 155 and the location of the metal
  • Portal 45 includes both intelligence
  • the threat location may be identified using a flashing dot, for example, on a computer
  • the object triggering the alert may be, for example, a wallet chain, unusually large number of metal keys, large belt buckles, watches, jewelry, shoes containing metal shanks
  • the passenger may be directed to remove the
  • FIG. 6 is a block diagram showing a more detailed view of metal detection portal
  • portal 50 system components of a
  • typical metal detection portal include a portal opening through which passengers pass
  • system can detect threat objects regardless of their shape and orientation.
  • the metal detection system of portal 50 may include multi-zone metal
  • detectors and associated zone displays that identify regions where the threat object, or
  • This feature operates in a similar, but somewhat
  • a typical multi-zone metal detector may include, for example, two to
  • the zone display may be used to identify the region where the threat object is
  • metal detection portal 50 include the METOR 100, 200 and 300 series metal detectors
  • FIG. 6 the passenger enters the metal detection portal and walks through
  • the passenger is given a pass indication and may proceed to the
  • checkpoint exit gate and retrieve any processed baggage (blocks 70, 90).
  • восем ⁇ embodiments of the invention include secondary screening zone 25 so that more
  • FIG. 7 is a block diagram showing a more detailed view of body scanning system
  • the types of threat objects that may be detected include explosives,
  • a typical body scanning system includes an X-ray scanning device, sensitive X- ray detectors, and a display device for rendering images. In operation, the X-ray scanning
  • These images may be viewed by an operator on a display device such as an LCD,
  • Suitable systems for implementing body scanning system 55 include, for example,
  • Rapiscan Secure 1000 body scanning system marketed by OSI/Rapiscan Security
  • scanning system include body cavity screening systems, as well as systems utilizing
  • Scanning a passenger using the body scanning system can be accomplished as
  • the passenger enters the body scanning system and faces a
  • front panel containing the X-ray scanning device (blocks 180, 182). A front scan of the
  • Typical scanning time ranges anywhere from 2
  • the passenger may be given a pass indication and
  • an alert can be triggered (block 190) and the
  • FIG. 8 is a block diagram showing an example of explosives detection performed
  • explosives detection system may be implemented using known explosives detection
  • TAA tumor analysis analysis
  • Trace detection may be accomplished using known detection technologies
  • a suitable detection system is one that is
  • PETN PETN
  • RDX Detasheet
  • TNT TNT
  • tetryl ANFO
  • black powder black powder
  • detection systems that may be used for implementing system 60 include, for example, the
  • ITEMISER trace detection system marketed by G.E. Ion Track Instruments, of
  • the inside and outside may be wiped with a cloth or swab that is often referred to
  • sample trap may be placed into the trace detection machine for analysis.
  • the trace detection machine After analyzing the sample trap, the trace detection machine will determine the
  • FIG. 9 is a block diagram providing an example of how sealed bottles and other
  • containers may be scanned to detect explosives and other harmful substances. Scanning
  • Suitable scanning systems generally
  • a tunnel or analyzing bay for receiving a container for scanning
  • the scanning system is capable of scanning sealed bottles and
  • Some systems utilize a form of magnetic resonance to scan suspicions containers.
  • magnetic resonance techniques use a combination of a magnetic field and
  • the "correct" frequency is applied to molecules in a magnetic field, the nuclei will absorb
  • the nuclei At the end of the pulse, the nuclei will revert to their preferred lower-energy
  • the relaxation time and frequencies are different for each
  • LiquiScan system that may be used for implementing system 65 is the LiquiScan system
  • Screening sealed bottles and other containers for explosives and other threats may be accomplished in the manner depicted in FIG.
  • suspicious bottle may be removed from the baggage and loaded into the analyzing bay of
  • the bottle may then be screened for
  • a pass indication may be
  • FIG. 10 is a block diagram showing control computer 240 in communication with individual explosives and weapons detection systems of the baggage, passenger and
  • the communication link between these systems may be
  • the communication link is
  • control computer is shown configured with combined user interface (CUI)
  • checkpoint exit gate 90 checkpoint exit gate 90
  • the threat identification system provides data that may be used to assign a threat level to particular passengers.
  • the threat level identification system comprises passenger
  • systems utilize artificial intelligence software to analyze threat-triggering aspects for a
  • Threat-triggering aspects range from how and when airline reservations
  • Advanced threat level identification systems are designed to scan multiple public
  • system may also include data from a number of private organizations that have generated,
  • checkpoint system of the invention is employed, the checkpoint system of the invention maybe
  • Control computer 240 may be implemented using any suitable computational
  • the control computer may be a specific
  • OS as the operating system
  • graphical workstations such as the computers of Sun Microsystems and Silicon Graphics, and other computers having some version of the
  • CUI 242 may be any suitable display device operable with any of the computing
  • the CUI comprises a suitable display device such as an LCD,
  • the CUI is implemented as a
  • FIG. 11 is a diagram showing one implementation of combined user interface
  • the CUI provides a single, centralized display presenting the screening results, images, and decisions for individual passengers generated by the
  • the CUI is
  • the CUI can receive and display data such as profile
  • control computer and CUI may
  • CUI comprises the primary baggage and passenger screening status regions, while the
  • right side comprises the secondary baggage and passenger screening status regions.
  • Passenger information may be displayed at the upper left region of the CUI, while threat assessment and screening recommendation may be presented at the lower left region.
  • Each of the six status regions of the CUI is shown being presented on a single display
  • some embodiments utilize three separate display devices
  • one display device is dedicated to passenger and threat assessment data, another
  • the primary baggage screening status region includes status information relating to the two baggage screening systems, namely, explosives screening system 30 and
  • the appropriate status indicator may read “alert” or "reject.” An image of the
  • baggage may also be presented in the primary bag screening region, which enables the
  • imaging system to confirm or overturn the imaging operator's decision.
  • the primary passenger screening status region is shown having status information
  • explosives detection portal 40 relating to the three passenger screening systems, namely, explosives detection portal 40
  • the passenger status region includes status indicators associated
  • the passenger explosives detection system reads
  • the self-divestment portal reads "reject” indicating that a metal object has been
  • the passenger will remove the detected metal object
  • the self-divestment portal may, or may not, be used in determining whether or not the
  • the metal detection portal reads "reject"
  • explosives detection system 60 and sealed-bottle scanning system 65.
  • Each of the two secondary baggage screening systems have a "pass" status, indicating the
  • the secondary passenger screening status region comprises status information
  • the status indicator reads "reject"
  • the computer generated image is generated by the body scanning system.
  • the computer generated image is generated by the body scanning system.
  • the computer generated image is generated by the body scanning system.
  • Passenger information is typically obtained from
  • the final region of the CUI relates to the threat assessment and screening recommendation for the passenger and associated baggage.
  • assessment region may be sectioned into several categories including a passenger threat
  • the primary and secondary threat level categories may be used to indicate passenger and
  • the overall threat assessment indicator is based upon a method that
  • the passenger threat level assessment indicator may be broken down into three
  • these three levels may be associated with varying sensitivity levels and screening
  • system may automatically generate a pass/reject recommendation, which the security
  • the passenger may be permitted to pass through the screening checkpoint exit gate and
  • high-risk passenger may be a passenger who has been
  • High-risk passengers may be required to be screened by both the primary and
  • one or more of the screening systems of the checkpoint may be set at a higher sensitivity level for screening high-risk passengers.
  • a high-risk passenger may be cleared to pass through the security checkpoint only if all
  • screening systems report a "pass" screening status. Typically, final supervisor approval is
  • screening Similar to high-risk passenger screening, one or more of the screening systems
  • the of the checkpoint maybe set at a higher sensitivity level for screening unknown passengers, if desired.
  • the unknown passenger may be cleared to pass through the
  • checkpoint supervisor is given the ability to override the
  • checkpoint supervisor may be given the ability to
  • the checkpoint supervisor is provided with a CUI, which may be
  • CUI may be located at an airport security office which could be located some distance
  • the CUI may be
  • the CUI may be realized wherever a secure network connection can be established.
  • the CUI may be provided with an assortment of features to facilitate or enhance
  • the CUI operator may have the ability to
  • each of the images may be represented on the screen as thumbnail images.
  • screening status regions may be omitted, enabling the primary screening status regions to
  • the CUI may provide an
  • the CUI may also include an archive feature that permits the
  • Still further possibilities include integration of the security checkpoint within a
  • passenger screening may be made available to outside agencies such as law enforcement, immigration, and the like.
  • Another option may be configuring a plurality of GUIs at a
  • FIG. 12 a block diagram of an alternative embodiment of an
  • checkpoint 300 is shown generally including primary baggage
  • screening zone 15 primary passenger screening zone 20 and secondary screening zone 25.
  • passenger screening zone 20 In particular, the passenger screening zone is shown
  • the checkpoint screening system shown in FIG. 12 illustrates a dynamically
  • optimal passenger and baggage screening may be achieved by
  • FIG. 13 shows another alternative embodiment of an advanced
  • checkpoint 320 of the present invention. As shown, checkpoint 320
  • primary baggage screening zone generally includes primary baggage screening zone 15, primary passenger screening zone
  • screening zone includes two screening portals, in contrast to three screening portals
  • FIG. 13 further shows a checkpoint screening system being implemented without the use of a self-
  • FIG. 14 is a block diagram of an integrated screening checkpoint in accordance
  • checkpoint 350 generally
  • SSC checkpoint
  • High-risk may be classified into two primary categories; namely, low-risk or high-risk. High-risk
  • passengers may include those who meet some selection criteria as having a greater
  • Standard checkpoint 352 maybe configured with conventional passenger and
  • Typical standard checkpoints include, for example, X-ray
  • ATSC 10 is shown having baggage, passenger and secondary screening zones 15,
  • screening zones may be implemented using any of the various combinations of
  • Passenger screening may be accomplished as follows. As indicated in block 356,
  • the passenger may first approach a passenger check-in station.
  • the passenger check-in station may be implemented as part of an airline's front counter baggage check or the
  • check-in station may be implemented as a dedicated screening point.
  • identity of the passenger may then be verified using any suitable method (for example,
  • the passenger may then be generally identified as either a "high-risk” or "low-
  • a high-risk passenger based upon some predetermined selection criteria.
  • passenger threat level data 244 may be used to determine the
  • the passenger threat level data may indicate the passenger poses a "high-risk,” which would require the passenger to pass through the
  • the passenger may be directed to the standard
  • checkpoint for screening Another alternative may be where a checkpoint employee
  • checkpoint screening process they may be permitted to pass to checkpoint exit gate 90.
  • the ATSC 10 for more comprehensive screening.
  • the passenger may be allowed to pass to the checkpoint exit gate. However, if the passenger fails any of the screening
  • FIG. 15 shows another alternative embodiment of an advanced technology
  • Checkpoint 400 generally includes
  • checkpoint 400 includes a
  • nuclear detection system 405 within the primary baggage screening zone.
  • the nuclear detection system may be implemented using any of a variety of
  • An appropriately configured nuclear detection system can detect
  • the nuclear detection system may be passed through the nuclear detection system for analysis.
  • detection system may then issue an alert or pass indication based on the detection of some
  • the nuclear detection system may be alternatively located at the
  • detection system as a walk through portal so that it may be implemented as part of the
  • FIG. 17 is a block diagram of an alternative embodiment of an advanced
  • the screening systems of the baggage screening zone are arranged in such a manner

Abstract

L'invention concerne une interface utilisateur de systèmes combinés (CUI)(242) pouvant être configuré de façon à être utilisé avec un point de contrôle de pointe (ATSC)(10), lequel est un système très performant spécialement conçu pour les passagers et servant à contrôler les passagers et les bagages à main afin de détecter des bombes assemblées, des composants de bombes, des armes métalliques et non métalliques et d'autres articles de contrebande. L'interface utilisateur de systèmes combinés comprend un bagage, un passager et des régions secondaires d'état de contrôle. La région d'état de contrôle des bagages affiche des informations de contrôle générées par un système de contrôle des explosifs (30) et un système d'imagerie de bagages (35), tandis que la région d'état de contrôle des passagers affiche des informations de contrôle générées par un portique de détection des explosifs (40) et un portique de détection des métaux (50). Dans certains modes de réalisation, une région d'état de contrôle affiche des informations de contrôle générées par un système de balayage du corps (55) et un système de contrôle des explosifs perfectionné (60).
PCT/US2004/017830 2003-06-11 2004-06-07 Interface utilisateur de systemes combines pour une surveillance centralise d'un point de controle des passagers et des bagages WO2004111963A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CA002527876A CA2527876A1 (fr) 2003-06-11 2004-06-07 Interface utilisateur de systemes combines pour une surveillance centralise d'un point de controle des passagers et des bagages
EP04754441A EP1636773A1 (fr) 2003-06-11 2004-06-07 Interface utilisateur de systemes combines pour une surveillance centralise d'un point de controle des passagers et des bagages

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US10/460,509 US6952163B2 (en) 2003-06-11 2003-06-11 Combined systems user interface for centralized monitoring of a screening checkpoint for passengers and baggage
US10/460,509 2003-06-11

Publications (1)

Publication Number Publication Date
WO2004111963A1 true WO2004111963A1 (fr) 2004-12-23

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US (1) US6952163B2 (fr)
EP (1) EP1636773A1 (fr)
CN (1) CN100504945C (fr)
CA (1) CA2527876A1 (fr)
WO (1) WO2004111963A1 (fr)

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WO2006081615A1 (fr) * 2005-02-01 2006-08-10 Qrsciences Pty Ltd Procede et appareil permettant de detecter des volumes importants blindes
WO2007139603A3 (fr) * 2006-03-10 2008-03-06 Ge Security Inc Système de vérification et de criblage intégré
WO2009085545A2 (fr) * 2007-12-26 2009-07-09 Ge Security, Inc. Système et procédé d'inspection par combinaison d'imagerie et de détection de traces
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CA2527876A1 (fr) 2004-12-23
EP1636773A1 (fr) 2006-03-22
US6952163B2 (en) 2005-10-04
CN100504945C (zh) 2009-06-24
US20050024199A1 (en) 2005-02-03
CN1806263A (zh) 2006-07-19

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